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Abstract

Standard microbial evolutionary ontology is organized according to a
nested hierarchy of entities at various levels of biological organization. It typically
detects and defines these entities in relation to the most stable aspects of evolutionary
processes, by identifying lineages evolving by a process of vertical inheritance
from an ancestral entity. However, recent advances in microbiology indicate
that such an ontology has important limitations. The various dynamics detected
within microbiological systems reveal that a focus on the most stable entities (or
features of entities) over time inevitably underestimates the extent and nature of
microbial diversity. These dynamics are not the outcome of the process of vertical
descent alone. Other processes, often involving causal interactions between entities
from distinct levels of biological organisation, or operating at different time scales,
are responsible not only for the destabilisation of pre-existing entities, but also for
the emergence and stabilisation of novel entities in the microbial world. In this
article we consider microbial entities as more or less stabilised functional wholes,
and sketch a network-based ontology that can represent a diverse set of processes
including, for example, as well as phylogenetic relations, interactions that stabilise
or destabilise the interacting entities, spatial relations, ecological connections, and
genetic exchanges. We use this pluralistic framework for evaluating (i) the existing
ontological assumptions in evolution (e.g. whether currently recognized entities are
adequate for understanding the causes of change and stabilisation in the microbial
world), and (ii) for identifying hidden ontological kinds, essentially invisible from
within a more limited perspective. We propose to recognize additional classes of
entities that provide new insights into the structure of the microbial world, namely ‘‘processually equivalent’’ entities, ‘‘processually versatile’’ entities, and ‘‘stabilized’’
entities.